Google Chrome and IE8 (among others) aim to provide greater reliability/stability by isolating each tab (web page) in a separate process (over-simplified, I know).

This would seem to be much more heavyweight then multiple threads, but has the major benefit of a crash in one process not bringing down the whole application.

It seems the multiple process architecture has long been used in server side applications (eg. web servers), but these are processes without a dedicated GUI. It's interesting that it is now being employed in the user interfaces of desktop applications.

How would I go about implementing this in say a Windows Forms .NET application? Is it even possible?

Process.Start() is an obvious first place to look, but the GUI of the new process is not tightly integrated with the GUI of the host application. It's a new standalone application, not a sub control/window of the host application, as it is with Chrome/IE8.

(For anyone interested Scott Hanselmann wrote a good intro. to the IE8 multi-process architecture here.)


More specifically:

How can a separate "sub-process" render directly to the UI within the "main process"? Is this actually what is happening, or as was suggested in comments, does the sub-process use IPC to ask the main process to render for it?


Google Chrome is using named pipes for inter-process communication.

There are some interesting documents here: http://dev.chromium.org/developers/design-documents

For more information on named pipes with ".net" just google it.

@Ash: The child processes are running in separate Windows "Desktops" which means that they have no way of displaying anything. (Desktops are a tricky thing...) So I must assume that everything the child processes renders must go through IPC. And then the main(?) process displays it.

I found that separate Windows "Desktop" thing here: http://dev.chromium.org/developers/design-documents/multi-process-architecture


A better option to using multiple processes in .NET would be to use multiple AppDomains instead. This has the advantage of only creating one actual Windows process, yet still giving the added stability of multiple areas (i.e. a crash in one AppDomain would only take that one down, not the whole app).

There are costs associated with this, since objects need to be serialized across AppDomain-boundaries. It might be easier to develop than a multi-process model, though.

  • +1, especially the caveats of communicating between domains. That can be much more costly than developers sometimes expect.
    – Rex M
    Mar 10 '09 at 3:04
  • 1
    Can 2 AppDomains in a single process update the user interface independently, ie separate tabs? Also, as Scott Hanselmann says, it is still possible to bring down the whole process from one AppDomain.
    – Ash
    Mar 10 '09 at 3:07
  • @Ash assuming one process/AppDomain is the "GUI" process, responsible for receiving commands from other processes and reflecting them; and eventing back to them, why not?
    – Rex M
    Mar 10 '09 at 3:13
  • @Rex, so do you thnk that is roughly how Chrome/IE8 would do it?
    – Ash
    Mar 10 '09 at 3:29
  • @Ash I can only speculate how they do it, but that's the most reasonable way I can think of. How else would the GUI not go down with a tab? There has to be a master process to coordinate everything and spawn new ones.
    – Rex M
    Mar 10 '09 at 4:02

btw... dup

See: Windows Forms application like Google Chrome with multiple processes (with answer from Jon Skeet :o )

(I think this answers the "more specifically" part too)

  • Thanks again. I did spent 5 minutes searching for an existing question. I also typed various titles into the "Ask Question" textbox. These don't work very well in my experience, oh well.
    – Ash
    Mar 10 '09 at 4:03
  • I just had a quick glance at the "Related" box on the right :P Mar 10 '09 at 4:14

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.